Presented By: Society of Women Engineers
Texas Instruments - Corporate Information Session
Thursday, September 4th
9/4/2025 | 5:30 pm | EECS 1003 (food provided)
Majors: Biomedical Engineering, Chemical Engineering, Computer Engineering, Computer Science, Data Science, Electrical Engineering, Industrial and Operations Engineering, Materials Science and Engineering, Mechanical Engineering
Positions: Full-time, Intern
Degrees: Bachelors, Masters, PhD
US Citizenship or Permanent Resident
Resumes collected
Our passion is to create a better world by making electronics more affordable through semiconductors.
Our semiconductor chips can be found in every type of electronic system – from electric vehicles to industrial robots, solar panels to satellites.
We were pioneers in the transition of the world from vacuum tubes to transistors and then to integrated circuits – and we’ve been advancing semiconductor technology for decades. Each generation of innovation builds upon the last to make technology smaller, more efficient, more reliable and more affordable – making it possible for semiconductors to go into electronics everywhere. We think of this as Engineering Progress.
9/4/2025 | 5:30 pm | EECS 1003 (food provided)
Majors: Biomedical Engineering, Chemical Engineering, Computer Engineering, Computer Science, Data Science, Electrical Engineering, Industrial and Operations Engineering, Materials Science and Engineering, Mechanical Engineering
Positions: Full-time, Intern
Degrees: Bachelors, Masters, PhD
US Citizenship or Permanent Resident
Resumes collected
Our passion is to create a better world by making electronics more affordable through semiconductors.
Our semiconductor chips can be found in every type of electronic system – from electric vehicles to industrial robots, solar panels to satellites.
We were pioneers in the transition of the world from vacuum tubes to transistors and then to integrated circuits – and we’ve been advancing semiconductor technology for decades. Each generation of innovation builds upon the last to make technology smaller, more efficient, more reliable and more affordable – making it possible for semiconductors to go into electronics everywhere. We think of this as Engineering Progress.
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